期刊
NANOPHOTONICS
卷 9, 期 9, 页码 3035-3044出版社
WALTER DE GRUYTER GMBH
DOI: 10.1515/nanoph-2019-0562
关键词
MoS2; SiC; chemical vapor deposition; photodetector
资金
- Guangdong Province KeyResearch and Development Plan [2019B010128001, 2019B010138002]
- National Natural Science Foundation of China [61774041, 61974144]
- Shanghai Science and Technology Innovation Program [19520711500]
The MoS2 photodetector on different substrates stacked via van der Waals force has been explored extensively because of its great potential in optoelectronics. Here, we integrate multilayer MoS2 on monocrystalline SiC substrate though direct chemical vapor deposition. The MoS2 film on SiC substrate shows high quality and thermal stability, in which the full width at half-maximum and first-order temperature coefficient for the E-2g(1) Raman mode are 4.6 cm(-1 )and -0.01382 cm(-1 )/K, respectively. The fabricated photodetector exhibits excellent performance in the UV and visible regions, including an extremely low dark current of similar to 1 nA at a bias of 20 V and a low noise equivalent of 10(-13)-10(-15) W/Hz(1/2). The maximum responsivity of the MoS2/SiC photodetector is 5.7 A/W with the incident light power of 4.35 mu W at 365 nm (UV light). Furthermore, the maximum photoconductive gain, noise equivalent power, and normalized detectivity for the fabricated detector under 365 nm illumination are 79.8, 7.08 x 10(-15) W/Hz(1/2), and 3.07 x 10(10) Jonesat, respectively. We thus demonstrate the possibility for integrating high-performance photodetectors array based on MoS2/SiC via direct chemical vapor growth.
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